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What The JavaScript

JavaScript. The language that everyone loves to hate. Sure, it's powerful and ubiquitous, but it's also one of the most unpredictable and downright weird programming languages out there. From unexpected behavior with arrays and objects, to the infamous "NaN" value and the "truthy/falsy" conundrum, JavaScript is full of quirks and edge cases that can make even experienced developers scratch their heads. We will marvel at the strange and sometimes hilarious things that can happen when you don't know what you're doing. We'll look at real-world examples of JavaScript code gone wrong, and laugh at the sheer absurdity of it all.

Primitives

Simplest primitive is a primitive boolean. Simple 0 or 1s.

Boolean

true    // true
false   // false

Creating booleans is as simple as:

Boolean()               // false
Boolean(0)              // false
Boolean(1)              // true
Boolean('')             // false
Boolean('123')          // true
Boolean({})             // true
Boolean([])             // true
Boolean(function(){})   // true
Boolean(undefined)      // false
typeof true                         // boolean
true instanceof Boolean             // false
typeof Boolean                      // function
Boolean instanceof Function         // true
new Boolean() instanceof Boolean    // true

This means we can create new instances of functions.

const test = function(){console.log(123)}
test()                      // 123
new test()                  // 123 & test {}
const t = new test();
t instanceof test           // true

Conclusion

Testing for primitive types should always be done using typeof, not instanceof

 typeof test == 'function' // true

Primitive values and object values can be a little confusing in JavaScript because the language implicitly wraps primitives in appropriate object wrappers when they are used like object references. That's why you can write

true.valueOf()  // true
true.toString() // 'true'

Boolean.prototype.wtf = function() {
    console.log('wtf is this monkey doing');
}
true.wtf()

Type Coercion

Type coercion is the automatic or implicit conversion of values from one data type to another.

123 == '123'        // true
123 == '00000123'   // true
123 === '123'       // false
123 === +'123'      // true
123 ===+     '123'  // true

null === 0          // false
null == 0           // false
null > 0            // false
null < 0            // false
null >= 0           // true
null <= 0           // true

Truthy and falsy values are values that are considered true or false when encountered in a Boolean context.

new Boolean({})    // true
{} == true         // false
!!{} == true       // true
!!'123' == true    // true
!!'' == true       // false

One would think in a boolean context, everything gets converted to truthy or falsy, then this is happening:

{} == {}                // false
{} == []                // false
[] == []                // false
[] == ''                // true
{} == ''                // false
{} == '[object Object]' // true

It's simply auto-converting these arrays and object to strings

Numbers

+value converts it to a number. and isNaN is odd.

+'123'              // 123
+123                // 123
+true               // 1
+false              // 0
+{}                 // NaN
+[]                 // 0
+[1,2,3]            // NaN
+null               // 0
+null === +false;   // true
isNaN([])           // false
isNaN('123')        // false
isNaN({})           // false
isNaN(undefined)    // true
isNaN(null)         // false
isNaN(NaN)          // true
typeof NaN          // number

const res = NaN;
const a = [res];
a.includes(res);    // true
a.indexOf(res);     // -1

The ECMAScript Language Specification explains NaN as a number value that is a IEEE 754 β€œNot-a-Number” value. It might seem strange, but this is a common computer science principle.

NaN == NaN          // false
Object.is(NaN, NaN) // true
0 === -0;           // true
Object.is(0, -0);   // false

Similar to booleans, we can create new numbers

new Number(123) == Number(123)      // true
new Number(123) === Number(123)     // false
new Number(123) == new Number(123)  // false
new Number(123).valueOf()           // 123
4.toString();                       // an error
4.20                                // 4.20
4,20                                // 20
mamamia='',lalal=123                // 123
(2).toString();                     // '2'

Now some back to school math

0420 - 069          // 203   : 0 --> base 8 0x --> hex
null + 0            // 0
1 + 2 + "3"         // '33'
1 + 2 + +"3"        // 6
0/0                 // NaN - according to google, its undefined
1/0                 // Infinity
-1/0                // -Infinity
!5 + !5             // 0
+!!NaN * "" - - [,] // 0 -> 0 * 0 - -0; // -> 0

some random number related stuff

3 > 2 > 1   // false
true > 1    // false

More real-world scenarios:

parseInt(420)           // 420    
parseInt(420.69)        // 420    
parseInt(0.0000005)     // 5   --> 5e-7
parseInt('5e-7')        // 5
parseInt(Infinity)      // NaN
parseInt(Infinity, 30)  // 13693557269

First, Infinity gets converted to the string 'Infinity'. Therefore, the first result shouldn't be surprising. We are using the radix 30, and in base 30, all letters are valid up to y. And 'Infinit' in base 30 is 13693557269 in base 10.

parseInt(3)                          // 3
['2','7','11'].map(parseInt)        // [2, NaN, 3]
[1,2,3,4].map(parseInt)             // [1, NaN, NaN, NaN]
['1','2','3','4'].map(Math.floor)   // [1, 2, 3, 4]
['2','7','11'].map(parseInt)

.map passes two (actually three) arguments to parseInt. 1 - the value, 2 - the index, 3 - the array. Each item in the array is parsed using a different radix. Because index 0 is false, '1' is parsed with default radix 10, '7' is parsed with radix 1, which is unparseable and '11' is parsed with radix 2, so the result is 3.

x.toFixed(2)    // '123.70'
+x.toFixed(2)   // 123.7

Safe numbers

Number.MAX_SAFE_INTEGER                                     // 9007199254740991 --> 2^53-1
Number.MAX_SAFE_INTEGER + 1 === Number.MAX_SAFE_INTEGER + 2 // true

function doSomething(id) {
    console.log(id);
}

doSomething(9007199254740992); // logs 9007199254740992
doSomething(9007199254740993); // logs 9007199254740992
doSomething(9007199254740994); // logs 9007199254740994

To avoid these issues, use libraries that support arbitrary-precision arithmetic, such as BigInt in newer versions of JavaScript, or use string representations of large numbers instead.

String

(69).toString()             // '69'
(69).toString(2)            // '1000101'
69 + ''                     // '69'

'b' + 'a' + 'a' + 'a'       // 'baa'
'b' + 'a' + + 'a' + 'a'     // 'baNaNa'
'😎'.length                // 2

string.replace
string.replaceAll // dont fall for it
const uuid = 'e851e2fa-4f00-4609-9dd2-9b3794c59619'
console.log(string.replace('-', ''))    // e851e2fa4f00-4609-9dd2-9b3794c59619

"" - - "" // These two empty strings are both converted to 0.
0 - - 0; // -> 0

--"";   // SyntaxError, space is important

Regex

Regex with the global flag is stateful. When the regex is global, if you call a method on the same regex object, it will start from the index past the end of the last match. When no more matches are found, the index is reset to 0 automatically.

reg = /ab/g
str = "abc"
reg.test(str)   // true
reg.test(str)   // false

str.match(reg)  // ["ab"]
Conclusion

Don't do REGEX. Match regex on base64 image data which is 15MB of characters. Just dont.

Arrays

[] + []                 // ''
[].toString();          // -> ""
new String() + [1,2,3]  // '1,2,3'
+[1].toString()         // 1
+[1,2].toString()       // NaN
[1] + [2]               // '12'
[1,2] + [3,4]           // '1,23,4'
[...[1,2], ...[3,4]]    // [1,2,3,4]
[] + [] === [,] + [,];  // -> true
const arr = Array(15)   // [ <15 empty items> ]
arr.length              // 15
arr.join('wat')         // 'watwatwatwatwatwatwatwatwatwatwatwatwatwat'
arr.join('wat' + 1)     // 'wat1wat1wat1wat1wat1wat1wat1wat1wat1wat1wat1wat1wat1wat1'
arr.join('wat' - 1)     // 'NaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaN'
arr.join('wat' - 1) + ' Batman!' // 'NaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaNNaN Batman!'
const test = [1,2,3];
test.length            // 3
delete test[1];
test.length            // 3

Deleting in arrays is likely not what you want.

[1,2,3,4][1,3,2]         // 3

The index expression always uses the last expression, [1,3,2] --> [1,2,3,4][2]

Objects

[] + {} 
{} + []
{} + {}
[] + []

const asdf = { 6.0: '6Komma0', test: 'test' };
console.log(asdf[6]);
console.log(asdf['6']);

JSON parsing

JSON.parse("1")                       // 1
JSON.parse("-0")                      // -0
JSON.parse("10e5")                    // 1000000
JSON.parse("0x1")                     // SyntaxError
JSON.stringify(NaN)                   // null
JSON.stringify(Infinity)              // null
JSON.stringify(undefined)             // undefined
JSON.parse(JSON.stringify(undefined)) // error
JSON.stringify({foo: undefined})      // {}
JSON.stringify([])                    // β€˜[]’
JSON.stringify([undefined])           // β€˜[null]’
JSON.parse("9007199254740995")        // 9007199254740996

Weird Stuff

Key & value are swapped between for..of and map

const map = new Map();
for(const [k,v] of map){
    console.log(k,v);
}

map.forEach((v,k) => {
    console.log(k,v);
});

Undefined is a defined value

let test = undefined;
test == undefined   // true
asdf == undefined   // ReferenceError

And then the fun stuff. Obfuscation via array / object additions.

'W'+
'h'+
(![]+[])[+!![]]+
(!![]+[])[+[]]+
(+{}+{})[+!![]+[+[]]]+
(!![]+[])[+[]]+
'h'+
([]+{})[+!![]+[+!![]]]+
(+{}+{})[+!![]+[+[]]]+
([]+{})[+!![]+[+[]]]+
(![]+[])[+!![]]+
'v'+
(![]+[])[+!![]]+
(![]+[])[!+[]+!![]+!![]]+
(![]+{})[+!![]+[+[]]]+
(!![]+[])[+!![]]+
(![]+[]+[][[]])[+!![]+[+[]]]+
'p'+
(!![]+[])[+[]]

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A collection of JavaScript surprises, awkwardness and outrageousness.

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